Hubbry Logo
search
logo
Trichiasis avatar
Trichiasis
Trichiasis
current hub
T

Trichiasis

logo
Community Hub0 Subscribers
Read side by side
Trichiasis
View on Wikipedia
from Wikipedia
Trichiasis
SpecialtyOphthalmology Edit this on Wikidata
Diagnostic methodSlit lamp

Trichiasis (/trɪkiˈsɪs/ trik-ee-AY-sis, /trɪˈkəsɪs/ tri-KEYE-ə-sis)[1] is a medical term for abnormally positioned eyelashes that grow back toward the eye, touching the cornea or conjunctiva. This can be caused by infection, inflammation, autoimmune conditions, congenital defects, eyelid agenesis and trauma such as burns or eyelid injury.

Standard treatment involves removal or destruction of the affected eyelashes with electrology, specialized laser, or surgery. In many cases, removal of the affected eyelashes with forceps resolves the symptoms, although the problem often recurs in a few weeks when the eyelashes regrow. Severe cases may cause scarring of the cornea and lead to vision loss if untreated. Mild cases may not require treatment.

Repeated cases of trachoma infection may cause trichiasis.[2]

Posterior misdirection of normal lashes most frequently affects the lower lid.

In dogs

[edit]

Trichiasis in dogs is hair from the eyelid growing in the wrong direction and rubbing on the eye, causing irritation. It usually occurs at the lateral upper eyelid, especially in the English Cocker Spaniel.[3] Trichiasis also refers to hair from a nasal fold rubbing on the eye. This type of trichiasis can be flattened by rubbing petroleum jelly onto it, but surgery is sometimes necessary for permanent correction.[citation needed]

Complications

[edit]
  • Inferior punctate epitheliopathy
  • Corneal ulceration
  • Pannus

See also

[edit]

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Trichiasis

View on Grokipedia
from Grokipedia
Trichiasis is an eye condition in which one or more eyelashes grow abnormally inward toward the eyeball, rubbing against the cornea, conjunctiva, and inner eyelid surfaces, which can lead to irritation, corneal damage, and potentially blindness if untreated.[1][2] This misdirection of normally positioned eyelash follicles distinguishes trichiasis from entropion, where the entire eyelid margin turns inward.[3] The condition arises from various etiologies, including chronic inflammation such as blepharitis or vernal keratoconjunctivitis, infections like herpes zoster or trachoma caused by Chlamydia trachomatis, trauma from chemical or thermal burns, and systemic diseases including Stevens-Johnson syndrome, ocular cicatricial pemphigoid, or leprosy.[3][2] Trachoma, the leading infectious cause of blindness worldwide, is a major driver of trichiasis in endemic areas, particularly among impoverished rural populations in 30 countries across Africa, Asia, the Middle East, and Latin America, where repeated infections lead to eyelid scarring and lash inversion.[4][5][6] Symptoms typically include eye pain, irritation, excessive tearing, redness, a foreign body sensation, and light sensitivity, with prolonged lash abrasion risking corneal ulcers, scarring, or vision loss.[1][2] Diagnosis involves a comprehensive ophthalmologic examination using a biomicroscope to assess lash direction, eyelid margins, and any corneal damage or scarring.[3] Treatment focuses on relieving symptoms and preventing complications, beginning with conservative measures like artificial tears or lubricant ointments for mild cases, followed by temporary epilation (plucking) of offending lashes.[1] For recurrent or severe trichiasis, options include electrolysis, cryotherapy, radiofrequency ablation, or argon laser to destroy lash follicles, while surgical interventions such as lid reconstruction or tarsal fracture may address underlying scarring, especially in trachoma-related cases.[3][2] The World Health Organization's SAFE strategy—Surgery for trichiasis, Antibiotics (e.g., azithromycin) to treat infection, Facial cleanliness, and Environmental improvements—has significantly reduced global burden, with 87,349 surgeries performed in 2024 and 27 countries validated for elimination as a public health problem as of November 2025.[4][7][6] Globally, trichiasis contributes to approximately 1.9 million cases of trachoma-induced blindness or visual impairment, with an estimated 1.5 million people living with trachomatous trichiasis, disproportionately affecting women (1.8 times higher risk) in low-resource settings; however, early intervention can prevent progression to irreversible damage.[4][8]

Definition and classification

Definition

Trichiasis is an ocular disorder defined as the misdirection of normally positioned eyelashes toward the ocular surface, resulting in contact with the cornea, conjunctiva, or inner eyelid margin. In this condition, the lash follicles remain in their typical anterior location along the eyelid margin, but the growth direction becomes aberrant, often due to scarring or mechanical factors. While primarily affecting eyelashes, trichiasis can occasionally involve other periocular hairs rubbing against the eye.[3][2][9] Trichiasis is distinct from related eyelid abnormalities such as entropion, where the entire eyelid margin inverts inward, causing normal lashes to abrade the eye, and distichiasis, characterized by the presence of an accessory row of lashes emerging from the posterior lamella of the eyelid. Unlike these, trichiasis specifically involves the abnormal orientation of the primary lash row without necessarily altering eyelid structure or adding extra lashes, though it may coexist with either condition.[3][1][10] The term "trichiasis" originates from the Greek trichiasis, denoting a pathological condition involving hair, particularly its abnormal positioning. It was first documented in ancient Egyptian medical literature, including the Ebers Papyrus from around 1550 BCE, which describes the affliction and prescribes remedies such as mixtures of myrrh, bat's blood, and lizard's blood to address ingrown lashes. Trichiasis is commonly associated with trachoma as a major global cause, particularly in endemic regions.[11][12][13][14]

Types of trichiasis

Trichiasis is classified into distinct types based on the anatomical origin and direction of the misdirected eyelashes, allowing for targeted management strategies. Anterior trichiasis refers to the inward misdirection of normal eyelashes originating from the anterior lamella of the eyelid (comprising the skin, orbicularis muscle, and lash follicles), causing them to rub against the globe, typically involving lashes from the upper or lower lid margins.[3] This type is distinguished from other forms by the lashes emerging from their usual anterior position but curving posteriorly toward the ocular surface.[15] Posterior trichiasis involves misdirected hairs from the posterior lamella, such as metaplastic lashes arising from meibomian gland orifices or the tarsal conjunctiva, which contact the eye due to scarring or inflammation affecting the deeper eyelid structures.[3] These lashes often emerge from abnormal posterior sites rather than the standard anterior margin. There is considerable overlap between anterior and posterior forms, particularly in cicatricial conditions like trachoma.[16] Marginal trichiasis describes a localized form where only a few lashes at the eyelid margin are misdirected inward, without full-thickness entropion or involvement of the entire lid.[3] This subtype typically arises from focal causes such as chronic blepharitis or minor trauma, affecting a limited segment of the margin.[17] Severity of trichiasis, especially in trachomatous cases, is graded using the World Health Organization's simplified system (as amended in 2020) adapted for clinical assessment. Trachomatous trichiasis is defined for the upper eyelid, with at least one eyelash touching the eyeball or evidence of recent epilation; it is categorized as minor (fewer than or equal to five misdirected lashes touching the globe or evidence of recent epilation), major (more than five lashes), with further distinction for moderate partial lid involvement and severe full lid distortion threatening the cornea.[14][18] This grading helps prioritize interventions based on the extent of ocular surface risk.[19]

Signs and symptoms

Ocular symptoms

Trichiasis manifests through acute ocular symptoms primarily arising from aberrant eyelashes contacting the corneal surface, leading to a foreign body sensation as patients often report feeling lashes rubbing against the eye. This contact triggers excessive tearing, known as epiphora, and photophobia, causing discomfort in bright light due to heightened sensitivity. Additionally, an exaggerated blinking reflex develops as an instinctive response to alleviate the irritation from lash-cornea interaction.[20][18] In chronic cases, recurrent redness or hyperemia of the conjunctiva becomes prominent from ongoing inflammation, while the lid margin undergoes keratinization, resulting in roughened tissue that exacerbates surface irritation. These persistent symptoms contribute to a cycle of ocular surface damage if untreated.[20][18] The condition typically progresses from initial episodic irritation to constant discomfort, with untreated trichiasis escalating the severity of symptoms over time. In endemic areas such as Ethiopia and The Gambia, patient reports highlight this advancement, where early foreign body sensations evolve into unrelenting pain and light intolerance, often leading to corneal opacity as a short-term complication.[18][21]

Associated conditions

Trachoma, caused by the bacterium Chlamydia trachomatis, is the primary infectious disease associated with trichiasis, particularly the cicatricial form resulting from repeated infections leading to conjunctival scarring and eyelid inversion in hyperendemic regions.[4] In these areas, trachoma accounts for the majority of trichiasis cases, often progressing to visual impairment if untreated.[18] Structural abnormalities frequently co-occur with trichiasis due to scarring processes. Entropion, an inward turning of the eyelid margin, commonly accompanies trichiasis as the scarring distorts eyelid architecture, exacerbating lash abrasion against the cornea.[22] Symblepharon, the adhesion of the conjunctiva to the cornea or eyelid, also arises from cicatricial changes and can compound trichiasis by restricting eyelid mobility and promoting further irritation.[23] Rarely, trichiasis links to autoimmune disorders involving conjunctival inflammation and fibrosis. Ocular cicatricial pemphigoid (OCP), a chronic autoimmune condition, leads to progressive scarring that manifests as trichiasis, often alongside entropion and symblepharon in advanced stages.[23] Similarly, Stevens-Johnson syndrome (SJS), an acute immune-mediated reaction typically triggered by medications, can result in chronic ocular sequelae including trichiasis through severe mucocutaneous scarring.[24] These associations may intensify symptoms such as ocular pain, though detailed symptomatic profiles are covered elsewhere.[25]

Causes and pathophysiology

Infectious causes

Trichiasis most commonly arises from repeated infections with Chlamydia trachomatis serovars A, B, Ba, and C, which cause trachoma, the leading infectious etiology worldwide.[4] These ocular strains of the bacterium trigger chronic conjunctival inflammation in endemic areas with poor sanitation, leading to progressive scarring of the tarsal conjunctiva and eventual misdirection of eyelashes toward the cornea.[26] In trachoma-endemic regions, this process affects millions, with women disproportionately impacted due to higher exposure during caregiving roles.[27] The pathophysiology begins with follicular inflammation, characterized by the formation of lymphoid follicles on the upper tarsal conjunctiva, graded as trachomatous inflammation—follicular (TF) when five or more follicles measuring at least 0.5 mm are present.[14] Repeated episodes escalate to intense inflammatory thickening (trachomatous inflammation—intense, TI), followed by conjunctival fibrosis and scarring (trachomatous scarring, TS), which distorts the eyelid margin and results in trachomatous trichiasis (TT), where two or more lashes touch the eyeball.[27] This WHO simplified grading system quantifies disease progression from active infection to blinding complications, emphasizing the role of persistent chlamydial replication in driving fibrotic remodeling.[28] Other infections can contribute to secondary trichiasis through analogous inflammatory scarring pathways, though less frequently than trachoma. Herpes zoster ophthalmicus or herpes simplex virus type 1 keratitis may induce chronic lid margin inflammation and fibrosis, misdirecting lashes after recurrent epithelial or stromal involvement.[15] [29] Leprosy, caused by Mycobacterium leprae, leads to eyelid scarring and trichiasis, particularly in endemic areas.[30] Chronic bacterial conjunctivitis, often due to Staphylococcus aureus, leads to persistent blepharoconjunctivitis and tarsal plate scarring in susceptible individuals.[31] Similarly, viral infections like molluscum contagiosum virus on the eyelid can cause localized chronic irritation and secondary conjunctival fibrosis, resulting in lash misdirection.[32] These secondary mechanisms overlap with non-infectious scarring in some cases but are distinctly pathogen-driven.[33]

Non-infectious causes

Non-infectious causes of trichiasis arise from structural abnormalities, injuries, or age-related changes that lead to misdirected eyelash growth without microbial involvement. These etiologies contrast with infectious origins by involving mechanical distortion or scarring of the eyelid margin, often resulting in cicatricial changes that turn lashes inward toward the ocular surface. Congenital trichiasis is rare and typically stems from developmental anomalies of the eyelid. Idiopathic cases may occur due to inherent follicle misdirection present at birth, though they are infrequently reported as isolated findings. More commonly in certain populations, trichiasis manifests as part of epiblepharon, a congenital condition characterized by a horizontal skin fold along the lower eyelid margin that displaces the lashes posteriorly. Epiblepharon is particularly prevalent among Asian children, with incidence rates up to 46% to 52.5% in newborns and young infants, often resolving spontaneously with age but occasionally requiring intervention if persistent corneal irritation develops.[3][34][35] Traumatic causes involve acquired damage to the eyelid structures, leading to scarring and inward lash rotation. Complications from eyelid surgery, such as blepharoplasty or chalazion excision, can induce cicatrization that distorts the lid margin and promotes trichiasis. Thermal or chemical burns to the periorbital region are significant precipitants, as they cause conjunctival and tarsal scarring, resulting in entropion and secondary trichiasis; for instance, alkali burns often lead to symblepharon and lash misdirection as long-term sequelae. Direct blunt trauma to the eyelids may also provoke fibrosis, with the lower lid being more susceptible due to its thinner structure. In mixed cases, trauma can exacerbate underlying infectious triggers, but the primary mechanism remains mechanical distortion.[3][36][37] Degenerative causes are frequently linked to aging or chronic non-infectious inflammatory processes that weaken eyelid support. Involutional changes, including horizontal lid laxity from orbicularis muscle atrophy and canthal tendon elongation, contribute to entropion and resultant trichiasis, with a prevalence of approximately 2.9% among individuals aged 60 years or older, increasing with advancing age. Autoimmune conditions like ocular cicatricial pemphigoid (OCP), a subtype of mucous membrane pemphigoid, induce progressive conjunctival fibrosis through autoantibody-mediated inflammation, leading to lid margin scarring and trichiasis.[38][3] OCP typically presents bilaterally and worsens over time, with overall incidence estimated at 0.8 cases per million annually, predominantly in those over 60. Stevens-Johnson syndrome (SJS), a severe mucocutaneous reaction often drug-induced, can cause conjunctival scarring and trichiasis as chronic sequelae.[39] Chronic non-scarring conditions like blepharitis or meibomian gland dysfunction can also foster gradual lash misdirection through repeated epithelial irritation, as can vernal keratoconjunctivitis via allergic inflammation.[40]

Diagnosis

Clinical examination

The clinical examination of trichiasis begins with a detailed inspection of the eyelids and ocular surface to identify misdirected eyelashes rubbing against the cornea or conjunctiva. Direct visualization under adequate illumination allows initial assessment of lash malposition, but magnification is essential for confirmation. In resource-limited settings, such as trachoma-endemic areas, handheld magnifiers or loupes may suffice for basic detection, while advanced settings employ slit-lamp biomicroscopy as the gold standard.[14][33] Slit-lamp biomicroscopy provides high-resolution visualization of the anterior segment, enabling precise identification of lash-cornea touch and quantification of affected lashes; trichiasis is often classified as minor if fewer than 5 cilia are involved or major if 5 or more are in contact with the ocular surface. This general clinical classification differs from the WHO definition of trachomatous trichiasis, which is present if at least one eyelash touches the eyeball or there is evidence of recent epilation.[33][41][14] This technique also reveals associated findings such as conjunctival injection, punctate epithelial erosions, or corneal abrasions resulting from chronic irritation.[33][41] Eyelid eversion is performed to evaluate the posterior lamella, exposing the tarsal conjunctiva and meibomian glands for signs of scarring, follicular inflammation, or misdirected follicles that may contribute to lash inversion, particularly in cases linked to trachoma. This maneuver, done gently with a cotton swab or finger, helps distinguish isolated trichiasis from more extensive lid deformities.[33][18] Fluorescein staining, applied topically after anesthetic if needed, highlights areas of corneal epitheliopathy by pooling in defects caused by lash abrasion; the resulting patterns are graded using the Oxford scheme, which categorizes severity from 0 (none) to 5 (severe, with coalescent lesions covering more than three-quarters of the cornea). This assessment quantifies the extent of surface damage and guides urgency of intervention without overlapping into treatment decisions.[42][43] Differentiation from entropion, where the entire lid margin inverts, relies on noting normal lid position in pure trichiasis during these exams.[42]

Differential diagnosis

Trichiasis must be differentiated from other conditions that cause ocular surface irritation due to eyelash contact or similar symptoms, as accurate diagnosis guides appropriate management.[44] A primary differential is entropion, where the eyelid margin inverts, allowing normally positioned lashes to rub against the cornea or conjunctiva, in contrast to trichiasis, which features normal eyelid position with misdirected lash follicles.[45][3] Blepharitis presents with eyelid margin inflammation and lash crusting but typically lacks the scarring and persistent inward lash misdirection seen in trichiasis, though chronic cases may lead to secondary trichiasis.[44][3] Foreign body sensation from an embedded particle causes acute, transient irritation that resolves upon removal, unlike the chronic, recurrent corneal abrasion in trichiasis due to ongoing lash contact.[41] For cases with conjunctival scarring suggestive of ocular cicatricial pemphigoid, direct immunofluorescence or biopsy of the conjunctiva can confirm the diagnosis and distinguish it from infectious or traumatic causes of trichiasis.[3] A practical diagnostic approach starts with a detailed history of infections, trauma, or autoimmune conditions to narrow differentials, followed by slit-lamp examination to assess lash direction, lid position, and corneal staining for abrasion.[44][45]

Treatment

Surgical interventions

Surgical interventions for trichiasis aim to evert the eyelid margin and redirect misdirected lashes to prevent corneal damage, particularly in cases of cicatricial entropion where scarring distorts the lid.[41][46] For permanent correction in cicatricial trichiasis, procedures such as tarsal fracture—where the tarsal plate is incised and everted to correct entropion—offer a targeted approach, though it has largely been superseded by more reliable techniques. Bilamellar tarsal rotation (BLTR), a widely adopted method, involves a full-thickness incision through the tarsal plate parallel to the lid margin, followed by rotation and suturing to evert both anterior and posterior lamellae, achieving success in repositioning lashes in approximately 86% of cases for both minor and major trichiasis.[47][48] The World Health Organization (WHO) recommends tarsal rotation surgeries, including BLTR and posterior lamellar tarsal rotation (PLTR), as standard treatments for trachomatous trichiasis (TT), with PLTR involving an incision solely through the posterior tarsus for eversion. Recent studies, including a 2025 randomized trial, suggest PLTR is preferable to BLTR due to lower recurrence rates (approximately 10% vs. 26% at one year) and fewer adverse outcomes. These procedures demonstrate success rates of 80-90% in reducing lash-cornea touch at one year, though recurrence (postoperative TT) can reach 10-20% depending on surgical precision and follow-up.[49][48][50] Advanced techniques for isolated or recurrent lashes include cryotherapy, which applies controlled freezing to destroy hair follicles via double freeze-thaw cycles, and CO2 laser ablation, which vaporizes follicles with precise thermal energy. Cryotherapy yields success rates up to 90% after multiple sessions for focal trichiasis, while CO2 laser ablation achieves 76-94% resolution with minimal tissue disruption; both have complication rates generally below 15%, including hypopigmentation, notching, or partial lash loss.[51][52][53][54] Other options for focal trichiasis include electrolysis, which uses electric current to ablate follicles with success rates of 70-90% after multiple sessions; radiofrequency ablation, offering precise tissue destruction with low recurrence (under 10%); and argon laser ablation, achieving 39-88% success but with up to 15% complication rate.[44][55][46]

Non-surgical management

Non-surgical management of trichiasis focuses on symptomatic relief and temporary control of misdirected eyelashes, particularly in mild cases where only a few lashes are affected or as a bridge to more definitive treatment. These approaches aim to minimize corneal irritation, prevent secondary complications, and maintain ocular surface health without invasive procedures.[44][2] Mechanical interventions, such as manual epilation, involve plucking the aberrant eyelashes with forceps, offering immediate but short-term relief by removing the offending lashes. This method is commonly used as a first-line option for isolated misdirected lashes, with regrowth typically occurring within 4-6 weeks, necessitating repeated procedures.[56][1] In trachoma-endemic settings, frequent epilation has been shown to mitigate the progression of minor trichiasis over four years, reducing lash burden and corneal damage compared to no intervention.[57] Up to 70% of individuals with minor trichiasis practice epilation as a traditional management strategy, though it does not address underlying lid abnormalities.[57] Lash singeing, an older technique using heat to temporarily shorten or curl misdirected lashes, provides similar transient benefits but is less commonly recommended due to risks of thermal injury.[41] Pharmacological treatments primarily involve topical lubricants, such as preservative-free artificial tears or ointments, applied frequently to reduce friction between the lashes and ocular surface, thereby alleviating discomfort and protecting the cornea from abrasion.[2][58] These agents are especially useful in mild cases to lessen irritation without addressing lash direction.[44] If secondary bacterial infection occurs due to corneal exposure, topical antibiotics like erythromycin or bacitracin/polymyxin B ointment are prescribed to treat conjunctivitis or keratitis, typically for 5-7 days.[42] In trachoma-associated trichiasis, a single dose of oral azithromycin may be used adjunctively to control chlamydial infection and reduce recurrence risk, though this is more preventive than curative for the misalignment itself. Supportive care emphasizes eyelid hygiene through daily gentle cleansing with diluted baby shampoo or commercial lid scrubs to remove debris and reduce inflammation, which can exacerbate lash misdirection.[58] The American Academy of Ophthalmology recommends incorporating these practices into routine management to support ocular surface integrity and prevent infections.[44] Occlusion patches or shields may be applied temporarily to protect the cornea from lash contact in cases of acute irritation, promoting healing of superficial abrasions while avoiding rubbing.[59] If symptoms persist despite these measures, referral for surgical correction is advised.[2]

Prevention

Public health measures

Public health measures to address trichiasis center on controlling trachoma, the primary infectious cause in endemic regions, through integrated community-based interventions. The World Health Organization (WHO) endorses the SAFE strategy, adopted in 1993, which comprises four components: Surgery to correct trichiasis and prevent corneal damage; Antibiotics, typically mass drug administration of azithromycin to treat active infections and reduce transmission; Facial cleanliness to promote hygiene practices that limit bacterial spread via contaminated hands or faces; and Environmental improvement, including enhanced sanitation, water access, and fly control to disrupt the disease's transmission cycle.[4] This multifaceted approach has been implemented in over 50 endemic countries, leading to a 93% reduction in the number of people at risk of trachoma blindness since 2002 (from 1.5 billion to 103 million as of April 2025).[4] The WHO's 2021–2030 road map for neglected tropical diseases sets a global target to eliminate trachoma as a public health problem by 2030, specifically aiming for a prevalence of trachomatous trichiasis unknown to the health system of less than 0.2% in individuals aged 15 years and older, and a prevalence of trachomatous inflammation–follicular of less than 5% in children aged 1–9 years. Achievement of this goal relies on scaled-up screening programs in high-burden areas of sub-Saharan Africa and parts of Asia, where community health workers identify and refer trichiasis cases for surgery while integrating SAFE components into routine health services.[60] As of November 2025, 27 countries have been validated by WHO as having eliminated trachoma as a public health problem, including recent validations for Fiji and Egypt, demonstrating the strategy's impact.[61]; [7]; [6] Ongoing research into vaccines against Chlamydia trachomatis represents a promising long-term public health tool to prevent trichiasis by curbing initial infections. Phase 1/2 clinical trials, such as those evaluating mRNA vaccine candidates, are assessing safety, immunogenicity, and preliminary efficacy in adults.[62] Mathematical modeling projects that a vaccine with 50% efficacy against symptomatic infections, when deployed at 80% coverage in high-risk populations, could avert up to 40% of new cases by 2040, complementing existing SAFE efforts.[63]

Individual prevention strategies

Individuals at risk of trichiasis, particularly in regions endemic for trachoma, can reduce their chances of developing the condition through consistent personal hygiene practices aimed at minimizing ocular infections and bacterial load. Regular face washing, at least once or twice daily using soap and clean water, has been shown to significantly lower the odds of trachomatous follicular inflammation, a precursor to trichiasis, with odds ratios of 0.76 for once-daily washing and 0.85 for twice-daily washing. Incorporating a personal towel for drying the face after washing further decreases this risk (OR 0.65), while daily bathing supports overall cleanliness to prevent eye-seeking flies and discharge accumulation. These practices are especially crucial for children, who are more susceptible to repeated infections that progress to scarring and inward lash growth.[64] Protective measures play a key role in preventing trauma or chronic irritation that may lead to eyelash misdirection. In dusty or windy environments, wearing sunglasses or protective goggles creates a barrier against irritants, reducing the likelihood of corneal abrasions or inflammatory responses that contribute to trichiasis.[2] Following eye trauma, such as burns or injuries, applying an eye shield as recommended by healthcare providers helps safeguard the healing eyelid and lash follicles from further damage.[1] Promptly seeking medical care for conjunctivitis is equally important; early administration of topical antibiotics for bacterial cases can resolve infection and avert cicatricial changes that cause trichiasis, particularly in trachoma-endemic areas.[4] For those with underlying risk factors, routine monitoring through regular eye examinations enables early detection and intervention to prevent progression to trichiasis. These individual strategies align with the facial cleanliness component of the WHO's SAFE framework for trachoma control.[4]

Complications

Short-term effects

Untreated trichiasis results in misdirected eyelashes rubbing against the cornea, causing corneal abrasion and erosion through repeated mechanical friction. This damage disrupts the corneal epithelium, creating entry points for pathogens and increasing the risk of bacterial superinfection, such as bacterial keratitis.[1][2][65] Patients often experience acute pain and blurred vision as immediate consequences, stemming from the irritation and irregular corneal surface induced by the aberrant lashes. The pain is typically sharp and foreign body-like, while vision blurring arises from corneal edema and surface irregularities that scatter light.[66][67] Additionally, the ongoing irritation can precipitate secondary bacterial conjunctivitis, manifesting as conjunctival redness, discharge, and discomfort. If addressed through appropriate management, symptoms of this secondary infection generally resolve within 1 to 2 weeks.[68][69]

Long-term consequences

Prolonged trichiasis leads to repeated mechanical trauma to the cornea from misdirected eyelashes, resulting in progressive corneal scarring and opacity.[70] This scarring disrupts the cornea's transparency, impairing light transmission to the retina and contributing to visual disability.[71] According to the World Health Organization, trachoma—primarily through its trichiasis stage—is responsible for blindness or visual impairment in about 1.9 million people worldwide, accounting for approximately 1.4% of all global blindness cases.[4] The extent of vision impairment varies with the severity and duration of trichiasis; mild cases may cause blurred vision due to superficial opacities, while severe, untreated trachomatous trichiasis can lead to profound visual loss, including legal blindness from dense central corneal scarring.[70] Initial corneal abrasions serve as precursors to this scarring process, escalating over time without intervention.[72] Chronic trichiasis also imposes significant psychological burdens, including persistent pain, fear of blindness, and social isolation, which diminish health-related quality of life in affected individuals, particularly in endemic communities.[73] Studies in regions like rural Niger describe this as a "living death," with sufferers experiencing profound emotional distress, reduced participation in social and economic activities, and increased dependency on family.[74]

Trichiasis in animals

In dogs

Trichiasis in dogs refers to the abnormal inward growth or angling of eyelashes or facial hairs that contact and irritate the cornea or conjunctiva, often leading to ocular discomfort. This condition is typically conformational rather than inflammatory, arising from anatomical features such as prominent nasal folds or eyelid malpositions that direct hairs toward the eye surface. While less common than in humans, it shares some similarities with non-cicatricial forms of the disease, where structural issues cause lash misdirection without underlying scarring.[75] Certain breeds exhibit a predisposition to trichiasis due to their facial anatomy, particularly brachycephalic dogs with excessive skin folds. Shar-Peis and Pugs are commonly affected, as their wrinkled facial skin and nasal folds allow hairs to rub against the eyes persistently. Other predisposed breeds include Pekingese, Bulldogs, Shih Tzus, and elderly English Cocker Spaniels, where inherited traits or age-related lid laxity contribute. A related variant, distichiasis—involving extra eyelashes emerging from meibomian gland orifices—occurs in up to 35% of cases in high-risk breeds like English Bulldogs, exacerbating corneal contact.[75][76][77] Clinical symptoms in affected dogs often manifest as signs of ocular irritation, including corneal ulcers from repeated abrasion, squinting or blepharospasm due to pain, and excessive tearing or epiphora as a protective response. Redness, ocular discharge, and pawing at the face may also occur, with severity varying based on hair stiffness and contact duration; for instance, softer hairs in breeds like Cocker Spaniels cause milder chronic irritation, while stiffer ones in Bulldogs lead to acute ulceration. Untreated cases can progress to corneal scarring or pigmentation, impairing vision.[75][78][76] Management primarily involves surgical interventions to redirect or remove offending hairs and correct underlying anatomy, with non-invasive options reserved for mild cases. For fold-related trichiasis, procedures such as medial canthoplasty or excision of excess nasal skin folds effectively reposition the lids, preventing recurrence. Cryotherapy, applied to freeze and destroy aberrant lash follicles (especially in distichiasis), achieves success in approximately 83% of treated eyes at follow-up periods ranging from weeks to years. Electrolysis or manual plucking offers temporary relief but is less favored due to regrowth risks; supportive care with lubricating ointments and antibiotics addresses secondary infections. Prognosis is generally good with timely intervention, though chronic cases may leave residual corneal changes.[75][76][79]

In other species

Trichiasis in cats frequently occurs secondary to entropion, particularly in brachycephalic breeds such as Persians, where prominent nasal folds and medial lower lid inversion cause normal eyelashes to rub against the cornea, leading to irritation, ulceration, and potential vision impairment.[80] Initial management often includes temporary everting sutures, known as ectropion tacking, to position the eyelid outward and alleviate corneal contact while the animal grows or until definitive surgery; permanent correction may involve procedures like the Hotz-Celsus technique for lid stabilization.[81] Prognosis is generally good with intervention, though recurrence can occur if underlying conformational issues persist.[80] In horses, trichiasis is uncommon and typically arises from eyelid trauma that distorts normal anatomy, resulting in misdirected lashes contacting the ocular surface and causing corneal abrasions or keratitis.[82] Surgical management is the mainstay, often employing blepharoplastic techniques to reconstruct the eyelid margin and redirect cilia, with outcomes depending on the extent of scarring and timely intervention to prevent secondary infections.[82] Among livestock species like sheep, trichiasis is most often associated with congenital or acquired entropion, where inward eyelid rolling leads to lash impingement on the cornea, potentially exacerbating in conditions involving facial inflammation; entropion, and thus trichiasis, can occur at relatively high rates with reported incidences of 1.0% to 80.0% in some populations, and zoonotic transmission risks are negligible due to the condition's mechanical etiology.[83] Treatment in affected animals usually involves simple interventions such as eyelid everting, temporary tacking, or subcutaneous penicillin injections in lambs, or surgical correction to mitigate welfare impacts in herd settings.[83]

Epidemiology

Global prevalence

Trichiasis, the advanced scarring stage of trachoma that leads to in-turned eyelashes abrading the cornea, is a major contributor to global blindness. According to the World Health Organization (WHO), trachoma causes blindness or visual impairment in approximately 1.9 million people worldwide, accounting for about 1.4% of all cases of blindness, with trichiasis being the primary pathway to irreversible vision loss. An estimated 1.5 million people live with trachomatous trichiasis (as of 2025), predominantly women in endemic regions. The global backlog of untreated trichiasis cases stands at around 1.5 million, requiring surgical intervention to prevent further damage.[4][84][85][8] As of 2025, trachoma remains a public health problem in 32 countries across Africa, Asia, Latin America, and the Pacific. Sub-Saharan Africa bears over 80% of the global burden, with countries like Ethiopia accounting for nearly 40% of worldwide trachoma cases due to high population density in endemic areas and limited healthcare access. This regional concentration highlights the disease's persistence in low-resource settings, where poor hygiene and overcrowding facilitate transmission. As of July 2025, 25 countries have been validated by WHO as having eliminated trachoma as a public health problem.[86][4][87] Implementation of the WHO-recommended SAFE strategy (surgery, antibiotics, facial cleanliness, and environmental improvements) since 2002 has led to a substantial decline in trichiasis prevalence, with the number of people requiring surgery reduced by 80% globally (from 7.6 million in 2002 to 1.5 million in 2023). Overall, the population at risk of trachoma blindness has dropped by more than 90%, from 1.5 billion in 2002 to 103 million in 2025, demonstrating the effectiveness of coordinated public health efforts. Trichiasis rates are markedly higher in rural impoverished communities with inadequate sanitation and water access, where the disease thrives due to these environmental factors.[88][89][4]

Risk factors and demographics

Trichiasis predominantly affects women, with prevalence estimates indicating approximately twice the burden compared to men in endemic regions, attributed to greater cumulative exposure from repeated infections and caregiving roles that increase contact with infected individuals.[90] This gender disparity can range from 1.4-fold to sixfold higher in females depending on the setting.[91] The condition is rare before age 15 and prevalence rises sharply with age, with 70-93% of untreated cases occurring in individuals over 40 years in hyperendemic areas due to progressive scarring from chronic inflammation.[92] Key risk factors for trachomatous trichiasis include socioeconomic and environmental conditions such as poverty, which is associated with nearly threefold higher odds of the condition (OR 2.79).[93] Overcrowding and poor hygiene facilitate transmission, as close household contact and inadequate face washing promote the spread of Chlamydia trachomatis.[4] In congenital forms, which are uncommon and distinct from trachomatous etiology, genetic factors play a role, with familial aggregation reported in up to 14-21% of cases involving inherited eyelid deformities like distichiasis linked to FOXC2 mutations.[94][95][96] Access to improved sanitation and hygiene serves as a protective factor, with household sanitation coverage associated with 13% lower prevalence (PR 0.87) and facial cleanliness linked to 58% reduced odds of active disease leading to trichiasis (OR 0.42).[97][64]

References

  1. Trichiasis (Misdirected Eyelashes): Causes & Treatment
  2. What Is Trichiasis? - American Academy of Ophthalmology
  3. Diseases of the Eyelashes - StatPearls - NCBI Bookshelf
  4. Trachoma - World Health Organization (WHO)
  5. Trachoma and trichiasis: causes, symptoms and treatment
  6. Trachoma - PAHO/WHO | Pan American Health Organization
  7. Trichiasis - Eye Disorders - Merck Manual Consumer Version
  8. Entropion, Trichiasis, and Distichiasis | SpringerLink
  9. TRICHIASIS Definition & Meaning - Merriam-Webster
  10. Trichiasis in ancient times - ScienceDirect.com
  11. [PDF] ANCIENT EGYPTIAN MEDICINE THE PAPYRUS EBERS
  12. Diagnosis of trachoma - Control of Neglected Tropical Diseases
  13. Trichiasis - an overview | ScienceDirect Topics
  14. trachomatous trichiasis in a peri-elimination setting - PubMed Central
  15. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4661324/
  16. https://www.who.int/publications/i/item/who-htm-ntd-pct-2019.03
  17. Trachomatous Trichiasis and its Management in Endemic Countries
  18. Surgery Versus Epilation for the Treatment of Minor Trichiasis in ...
  19. Trachoma - StatPearls - NCBI Bookshelf
  20. https://pubmed.ncbi.nlm.nih.gov/11864895/
  21. Trichiasis - Ento Key
  22. Ocular Cicatricial Pemphigoid - EyeWiki
  23. Stevens-Johnson Syndrome - EyeWiki
  24. Stevens-Johnson Syndrome and the Eyes
  25. Trachoma and Ocular Chlamydial Infection in the Era of Genomics
  26. Trachoma - EyeWiki
  27. The simplified trachoma grading system, amended - PMC - NIH
  28. Conjunctivitis | AAFP
  29. Molluscum Contagiosum
  30. Trichiasis - EyeWiki
  31. The Clinical Characteristics and Surgical Outcomes of Epiblepharon ...
  32. Morphological and functional characteristics of the meibomian gland ...
  33. The Ocular Surface Chemical Burns - PMC
  34. Entropion - StatPearls - NCBI Bookshelf - NIH
  35. 3-Step Combined Technique for Correction of Involutional Lower ...
  36. Ocular Pemphigoid - StatPearls - NCBI Bookshelf - NIH
  37. Trichiasis: Lashes Gone Astray - Review of Ophthalmology
  38. Trichiasis - Eye Disorders - MSD Manual Professional Edition
  39. Grading of corneal and conjunctival staining in the context ... - PubMed
  40. Trichiasis - EyeWiki
  41. Trichiasis - Eye Disorders - Merck Manual Professional Edition
  42. Argon Laser: A Modality of Treatment for Trichiasis - PMC
  43. [PDF] Trichiasis surgery for trachoma - Paho.org
  44. A randomized clinical trial of the success rates of bilamellar tarsal ...
  45. Trichiasis surgery for trachoma Second Edition
  46. Cryotherapy for trichiasis in trachoma - PubMed
  47. Management of trichiasis with lid margin split and cryotherapy - PMC
  48. Causes of Trichiasis and Distichiasis and Their Management with ...
  49. Ultrapulse carbon dioxide laser excision as a novel treatment for ...
  50. The Annoying Lash in the Eye: A Review of Trichiasis
  51. Epilation for Minor Trachomatous Trichiasis: Four-Year Results of a ...
  52. Tricks to Treat Trichiasis - Review of Optometry
  53. Improve Your Prowess with Bandage Soft Lenses
  54. Trachoma elimination programs set sights on 2030
  55. WHO validates elimination of trachoma in Pakistan
  56. WHO report highlights increase in the number of countries that have ...
  57. NCT06891417 | Phase 1/2 Study of Chlamydia Trachomatis mRNA ...
  58. Vaccination as a strategy for Chlamydia trachomatis control - NIH
  59. https://www.cochranelibrary.com/cdsr/doi/10.1002/14651858.CD003659.pub4/full
  60. Trichiasis and dry eye syndrome in two patients on novel fibroblast ...
  61. Corneal Abrasion - StatPearls - NCBI Bookshelf
  62. Trichiasis - Causes, Symptoms, Diagnosis, Treatment, and Prevention
  63. Trichiasis and Treatment - Florida Eye Specialists & Cataract Institute
  64. Bacterial Conjunctivitis - StatPearls - NCBI Bookshelf - NIH
  65. Bacterial Conjunctivitis - EyeWiki
  66. Impact of Trichiasis Surgery on Quality of Life: A Longitudinal Study ...
  67. The Long-Term Natural History of Trachomatous Trichiasis in ... - IOVS
  68. Epilation for Trachomatous Trichiasis and the Risk of Corneal ...
  69. Impact of Trichiasis Surgery on Quality of Life: A Longitudinal Study ...
  70. 'A living death': a qualitative assessment of quality of life ... - PubMed
  71. Trichiasis in Dogs (Canis) | Vetlexicon
  72. Trichiasis, Ectopic Cilia, and Distichia: T.E.D. Talk on Eyelash ...
  73. Epidemiology and clinical significance of canine distichiasis - PubMed
  74. Distichiasis in Dogs - PetMD
  75. Canine distichiasis cryoepilation using a liquid nitrogen-cooled ...
  76. Trichiasis in Cats (Felis) | Vetlexicon
  77. Entropion in Cats - PetMD
  78. Trichiasis - an overview | ScienceDirect Topics
  79. The prevalence and risk factors for congenital entropion in ...
  80. [PDF] The Trachoma End Game: The Power of Persistance, Partnership ...
  81. Results of the maximizing trichiasis surgery success (MTSS ...
  82. [PDF] Fact Sheet - Trachoma for Health Workers in the Americas - PAHO
  83. Case–control study of determinants of corrective upper eyelid ...
  84. WHO reports continued progress towards trachoma elimination
  85. Eliminating trachoma: WHO announces sustained progress with ...
  86. an exploratory analysis of global trachoma survey data, 2015–2019
  87. Gender equity and trichiasis surgery in the Vietnam and Tanzania ...
  88. What is the appropriate age range of individuals to be included in a ...
  89. Trachoma and Relative Poverty: A Case-Control Study - PMC - NIH
  90. Trichiasis among close relatives, Central Ethiopia | Request PDF
  91. Distichiasis - EyeWiki
  92. Congenital lower eyelid deformity with trichiasis (epiblepharon and ...
  93. [PDF] Sanitation and water supply coverage thresholds associated with ...
  94. Effect of Water, Sanitation, and Hygiene on the Prevention of ...
User Avatar
No comments yet.